/*
 *
 *  *  Copyright 2010-2016 OrientDB LTD (http://orientdb.com)
 *  *
 *  *  Licensed under the Apache License, Version 2.0 (the "License");
 *  *  you may not use this file except in compliance with the License.
 *  *  You may obtain a copy of the License at
 *  *
 *  *       http://www.apache.org/licenses/LICENSE-2.0
 *  *
 *  *  Unless required by applicable law or agreed to in writing, software
 *  *  distributed under the License is distributed on an "AS IS" BASIS,
 *  *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *  *  See the License for the specific language governing permissions and
 *  *  limitations under the License.
 *  *
 *  * For more information: http://orientdb.com
 *
 */
package com.orientechnologies.orient.core.metadata.schema;

import com.orientechnologies.common.listener.OProgressListener;
import com.orientechnologies.orient.core.index.OIndex;
import com.orientechnologies.orient.core.metadata.schema.clusterselection.OClusterSelectionStrategy;
import com.orientechnologies.orient.core.record.impl.ODocument;
import java.io.IOException;
import java.util.Collection;
import java.util.List;
import java.util.Map;
import java.util.Set;

/**
 * Schema class
 *
 * @author Luca Garulli (l.garulli--(at)--orientdb.com)
 */
public interface OClass extends Comparable<OClass> {

  public static final String EDGE_CLASS_NAME = "E";
  public static final String VERTEX_CLASS_NAME = "V";

  enum ATTRIBUTES {
    NAME,
    SHORTNAME,
    SUPERCLASS,
    SUPERCLASSES,
    OVERSIZE,
    STRICTMODE,
    ADDCLUSTER,
    REMOVECLUSTER,
    CUSTOM,
    ABSTRACT,
    CLUSTERSELECTION,
    DESCRIPTION,
    ENCRYPTION
  }

  enum INDEX_TYPE {
    UNIQUE(true),
    NOTUNIQUE(true),
    FULLTEXT(true),
    /**
     * @deprecated can be used only as manual index and manual indexes are deprecated and will be
     *     removed
     */
    @Deprecated
    DICTIONARY(false),
    PROXY(true),
    UNIQUE_HASH_INDEX(true),
    NOTUNIQUE_HASH_INDEX(true),
    DICTIONARY_HASH_INDEX(false),
    SPATIAL(true);

    private boolean automaticIndexable;

    INDEX_TYPE(boolean iValue) {
      automaticIndexable = iValue;
    }

    boolean isAutomaticIndexable() {
      return automaticIndexable;
    }
  }

  boolean isAbstract();

  OClass setAbstract(boolean iAbstract);

  boolean isStrictMode();

  OClass setStrictMode(boolean iMode);

  @Deprecated
  OClass getSuperClass();

  @Deprecated
  OClass setSuperClass(OClass iSuperClass);

  boolean hasSuperClasses();

  List<String> getSuperClassesNames();

  List<OClass> getSuperClasses();

  OClass setSuperClasses(List<? extends OClass> classes);

  OClass addSuperClass(OClass superClass);

  OClass removeSuperClass(OClass superClass);

  String getName();

  OClass setName(String iName);

  String getDescription();

  OClass setDescription(String iDescription);

  String getStreamableName();

  Collection<OProperty> declaredProperties();

  Collection<OProperty> properties();

  Map<String, OProperty> propertiesMap();

  Collection<OProperty> getIndexedProperties();

  OProperty getProperty(String iPropertyName);

  OProperty createProperty(String iPropertyName, OType iType);

  OProperty createProperty(String iPropertyName, OType iType, OClass iLinkedClass);

  /**
   * Create a property in the class with the specified options.
   *
   * @param iPropertyName the name of the property.
   * @param iType the type of the property.
   * @param iLinkedClass in case of property of type
   *     LINK,LINKLIST,LINKSET,LINKMAP,EMBEDDED,EMBEDDEDLIST,EMBEDDEDSET,EMBEDDEDMAP can be
   *     specified a linked class in all the other cases should be null
   * @param iUnsafe if true avoid to check the persistent data for compatibility, should be used
   *     only if all persistent data is compatible with the property
   * @return the created property.
   */
  OProperty createProperty(String iPropertyName, OType iType, OClass iLinkedClass, boolean iUnsafe);

  OProperty createProperty(String iPropertyName, OType iType, OType iLinkedType);

  /**
   * Create a property in the class with the specified options.
   *
   * @param iPropertyName the name of the property.
   * @param iType the type of the property.
   * @param iLinkedType in case of property of type EMBEDDEDLIST,EMBEDDEDSET,EMBEDDEDMAP can be
   *     specified a linked type in all the other cases should be null
   * @param iUnsafe if true avoid to check the persistent data for compatibility, should be used
   *     only if all persistent data is compatible with the property
   * @return the created property.
   */
  OProperty createProperty(String iPropertyName, OType iType, OType iLinkedType, boolean iUnsafe);

  void dropProperty(String iPropertyName);

  boolean existsProperty(String iPropertyName);

  int getClusterForNewInstance(ODocument doc);

  int getDefaultClusterId();

  void setDefaultClusterId(int iDefaultClusterId);

  int[] getClusterIds();

  OClass addClusterId(int iId);

  OClusterSelectionStrategy getClusterSelection();

  OClass setClusterSelection(OClusterSelectionStrategy clusterSelection);

  OClass setClusterSelection(String iStrategyName);

  OClass addCluster(String iClusterName);

  /**
   * Removes all data in the cluster with given name. As result indexes for this class will be
   * rebuilt.
   *
   * @param clusterName Name of cluster to be truncated.
   * @return Instance of current object.
   */
  OClass truncateCluster(String clusterName);

  OClass removeClusterId(int iId);

  int[] getPolymorphicClusterIds();

  @Deprecated
  Collection<OClass> getBaseClasses();

  @Deprecated
  Collection<OClass> getAllBaseClasses();

  /** @return all the subclasses (one level hierarchy only) */
  Collection<OClass> getSubclasses();

  /** @return all the subclass hierarchy */
  Collection<OClass> getAllSubclasses();

  /** @return all recursively collected super classes */
  Collection<OClass> getAllSuperClasses();

  long getSize();

  float getClassOverSize();

  /**
   * Returns the oversize factor. Oversize is used to extend the record size by a factor to avoid
   * defragmentation upon updates. 0 or 1.0 means no oversize.
   *
   * @return Oversize factor
   * @see #setOverSize(float)
   */
  float getOverSize();

  /**
   * Sets the oversize factor. Oversize is used to extend the record size by a factor to avoid
   * defragmentation upon updates. 0 or 1.0 means no oversize. Default is 0.
   *
   * @return Oversize factor
   * @see #getOverSize()
   */
  OClass setOverSize(float overSize);

  /** Returns the number of the records of this class considering also subclasses (polymorphic). */
  long count();

  /**
   * Returns the number of the records of this class and based on polymorphic parameter it consider
   * or not the subclasses.
   */
  long count(boolean iPolymorphic);

  /**
   * Truncates all the clusters the class uses.
   *
   * @throws IOException
   */
  void truncate() throws IOException;

  /**
   * Tells if the current instance extends the passed schema class (iClass).
   *
   * @param iClassName
   * @return true if the current instance extends the passed schema class (iClass).
   * @see #isSuperClassOf(OClass)
   */
  boolean isSubClassOf(String iClassName);

  /**
   * Returns true if the current instance extends the passed schema class (iClass).
   *
   * @param iClass
   * @return true if the current instance extends the passed schema class (iClass).
   * @see #isSuperClassOf(OClass)
   */
  boolean isSubClassOf(OClass iClass);

  /**
   * Returns true if the passed schema class (iClass) extends the current instance.
   *
   * @param iClass
   * @return Returns true if the passed schema class extends the current instance.
   * @see #isSubClassOf(OClass)
   */
  boolean isSuperClassOf(OClass iClass);

  String getShortName();

  OClass setShortName(String shortName);

  Object get(ATTRIBUTES iAttribute);

  OClass set(ATTRIBUTES attribute, Object iValue);

  /**
   * Creates database index that is based on passed in field names. Given index will be added into
   * class instance and associated with database index.
   *
   * @param fields Field names from which index will be created.
   * @param iName Database index name
   * @param iType Index type.
   * @return Class index registered inside of given class ans associated with database index.
   */
  OIndex createIndex(String iName, INDEX_TYPE iType, String... fields);

  /**
   * Creates database index that is based on passed in field names. Given index will be added into
   * class instance and associated with database index.
   *
   * @param fields Field names from which index will be created.
   * @param iName Database index name
   * @param iType Index type.
   * @return Class index registered inside of given class ans associated with database index.
   */
  OIndex createIndex(String iName, String iType, String... fields);

  /**
   * Creates database index that is based on passed in field names. Given index will be added into
   * class instance.
   *
   * @param fields Field names from which index will be created.
   * @param iName Database index name.
   * @param iType Index type.
   * @param iProgressListener Progress listener.
   * @return Class index registered inside of given class ans associated with database index.
   */
  OIndex createIndex(
      String iName, INDEX_TYPE iType, OProgressListener iProgressListener, String... fields);

  /**
   * Creates database index that is based on passed in field names. Given index will be added into
   * class instance.
   *
   * @param iName Database index name.
   * @param iType Index type.
   * @param iProgressListener Progress listener.
   * @param metadata Additional parameters which will be added in index configuration document as
   *     "metadata" field.
   * @param algorithm Algorithm to use for indexing.
   * @param fields Field names from which index will be created. @return Class index registered
   *     inside of given class ans associated with database index.
   */
  OIndex createIndex(
      String iName,
      String iType,
      OProgressListener iProgressListener,
      ODocument metadata,
      String algorithm,
      String... fields);

  /**
   * Creates database index that is based on passed in field names. Given index will be added into
   * class instance.
   *
   * @param iName Database index name.
   * @param iType Index type.
   * @param iProgressListener Progress listener.
   * @param metadata Additional parameters which will be added in index configuration document as
   *     "metadata" field.
   * @param fields Field names from which index will be created. @return Class index registered
   *     inside of given class ans associated with database index.
   */
  OIndex createIndex(
      String iName,
      String iType,
      OProgressListener iProgressListener,
      ODocument metadata,
      String... fields);

  /**
   * Returns list of indexes that contain passed in fields names as their first keys. Order of
   * fields does not matter.
   *
   * <p>All indexes sorted by their count of parameters in ascending order. If there are indexes for
   * the given set of fields in super class they will be taken into account.
   *
   * @param fields Field names.
   * @return list of indexes that contain passed in fields names as their first keys.
   * @see com.orientechnologies.orient.core.index.OIndexDefinition#getParamCount()
   */
  Set<OIndex> getInvolvedIndexes(Collection<String> fields);

  /**
   * Returns list of indexes that contain passed in fields names as their first keys. Order of
   * fields does not matter.
   *
   * <p>All indexes sorted by their count of parameters in ascending order. If there are indexes for
   * the given set of fields in super class they will be taken into account.
   *
   * @param fields Field names.
   * @return list of indexes that contain passed in fields names as their first keys.
   * @see #getInvolvedIndexes(java.util.Collection)
   */
  Set<OIndex> getInvolvedIndexes(String... fields);

  /**
   * Returns list of indexes that contain passed in fields names as their first keys. Order of
   * fields does not matter.
   *
   * <p>Indexes that related only to the given class will be returned.
   *
   * @param fields Field names.
   * @return list of indexes that contain passed in fields names as their first keys.
   * @see com.orientechnologies.orient.core.index.OIndexDefinition#getParamCount()
   */
  Set<OIndex> getClassInvolvedIndexes(Collection<String> fields);

  /**
   * @param fields Field names.
   * @return list of indexes that contain passed in fields names as their first keys.
   * @see #getClassInvolvedIndexes(java.util.Collection)
   */
  Set<OIndex> getClassInvolvedIndexes(String... fields);

  /**
   * Indicates whether given fields are contained as first key fields in class indexes. Order of
   * fields does not matter. If there are indexes for the given set of fields in super class they
   * will be taken into account.
   *
   * @param fields Field names.
   * @return <code>true</code> if given fields are contained as first key fields in class indexes.
   */
  boolean areIndexed(Collection<String> fields);

  /**
   * @param fields Field names.
   * @return <code>true</code> if given fields are contained as first key fields in class indexes.
   * @see #areIndexed(java.util.Collection)
   */
  boolean areIndexed(String... fields);

  /**
   * Returns index instance by database index name.
   *
   * @param iName Database index name.
   * @return Index instance.
   */
  OIndex getClassIndex(String iName);

  /** @return All indexes for given class, not the inherited ones. */
  Set<OIndex> getClassIndexes();

  /**
   * Internal. Copy all the indexes for given class, not the inherited ones, in the collection
   * received as argument.
   */
  void getClassIndexes(Collection<OIndex> indexes);

  /** Internal. All indexes for given class and its super classes. */
  void getIndexes(Collection<OIndex> indexes);

  /** @return All indexes for given class and its super classes. */
  Set<OIndex> getIndexes();

  /** Returns the auto sharding index configured for the class if any. */
  OIndex getAutoShardingIndex();

  /** @return true if this class represents a subclass of an edge class (E) */
  boolean isEdgeType();

  /** @return true if this class represents a subclass of a vertex class (V) */
  boolean isVertexType();

  String getCustom(String iName);

  OClass setCustom(String iName, String iValue);

  void removeCustom(String iName);

  void clearCustom();

  Set<String> getCustomKeys();

  boolean hasClusterId(int clusterId);

  boolean hasPolymorphicClusterId(int clusterId);

  OClassAllocation getAllocation();
}
